View clinical trials related to Postural Control.
Filter by:Studies on gastrocnemius tightness in healthy children are limited, but there is evidence that ankle dorsiflexion decreases with increasing age in children. It is not known whether gastrocnemius tightness is a normal finding in children, but recurrent leg pain is common in children. It is also known that flexible flatfoot is a normal observation in developing children and that the medial longitudinal arch develops during the first decade of life. Both foot morphology and ankle dorsiflexion change in developing children; however, it is not known whether there is a relationship between them or not. In the literature, there is no study evaluating foot posture, muscle strength, functional performance, and postural control in children with isolated gastrocnemius muscle tightness. It was planned to evaluate postural control using computerized dynamic posturography (Biodex Balance System), lower extremity muscle strength using a hand-held dynamometer, foot posture using the Foot Posture Index (FPI-6), and functional performance using single-foot-double-foot jump tests in healthy children with isolated gastrocnemius muscle tightness.
The goal of this study [type of study: clinical trial] is to was planned to investigate the effect of motor imagery training given to geriatric individuals with action observation on their balance performance and to compare these two methods. The main questions it aims to answer are: 1. Is virtual reality-based balance training given together with action observation and motor imagery for six weeks in geriatric individuals more effective in improving static balance than virtual reality-based balance training given alone? 2. Is virtual reality-based balance training given together with action observation and motor imagery for six weeks in geriatric individuals more effective in improving dynamic balance than virtual reality-based balance training given alone? 3. Is virtual reality-based balance training given together with motor imagery for six weeks in geriatric individuals more effective in increasing balance confidence than virtual reality-based balance training given alone? 46 geriatric individuals will be randomized into 2 groups. Along with action observation, motor imagery training and virtual reality-based balance training will be given to the study group. On the other hand, only virtual reality-based balance training will be given to the control group. All assessments will be repeated before and after the trainings. The trainings will be applied 2 days a week for 6 weeks. Each training session; 25 minutes for the control group and 45 minutes for the study group.